#ifndef ROOT_TArrayS
#define ROOT_TArrayS
#ifndef ROOT_TArray
#include "TArray.h"
#endif
class TArrayS : public TArray {
public:
Short_t *fArray;
TArrayS();
TArrayS(Int_t n);
TArrayS(Int_t n, const Short_t *array);
TArrayS(const TArrayS &array);
TArrayS &operator=(const TArrayS &rhs);
virtual ~TArrayS();
void Adopt(Int_t n, Short_t *array);
void AddAt(Short_t c, Int_t i);
Short_t At(Int_t i) const ;
void Copy(TArrayS &array) const {array.Set(fN,fArray);}
const Short_t *GetArray() const { return fArray; }
Short_t *GetArray() { return fArray; }
Double_t GetAt(Int_t i) const { return At(i); }
Stat_t GetSum() const {Stat_t sum=0; for (Int_t i=0;i<fN;i++) sum+=fArray[i]; return sum;}
void Reset() {memset(fArray, 0,fN*sizeof(Short_t));}
void Reset(Short_t val) {for (Int_t i=0;i<fN;i++) fArray[i] = val;}
void Set(Int_t n);
void Set(Int_t n, const Short_t *array);
void SetAt(Double_t v, Int_t i) { AddAt((Short_t)v, i); }
Short_t &operator[](Int_t i);
Short_t operator[](Int_t i) const;
ClassDef(TArrayS,1)
};
#if defined R__TEMPLATE_OVERLOAD_BUG
template <>
#endif
inline TBuffer &operator>>(TBuffer &buf, TArrayS *&obj)
{
obj = (TArrayS *) TArray::ReadArray(buf, TArrayS::Class());
return buf;
}
#if defined R__TEMPLATE_OVERLOAD_BUG
template <>
#endif
inline TBuffer &operator<<(TBuffer &buf, const TArrayS *obj)
{
return buf << (const TArray*)obj;
}
inline Short_t TArrayS::At(Int_t i) const
{
if (!BoundsOk("TArrayS::At", i)) return 0;
return fArray[i];
}
inline Short_t &TArrayS::operator[](Int_t i)
{
if (!BoundsOk("TArrayS::operator[]", i))
i = 0;
return fArray[i];
}
inline Short_t TArrayS::operator[](Int_t i) const
{
if (!BoundsOk("TArrayS::operator[]", i)) return 0;
return fArray[i];
}
#endif